arc height

简明释义

弧高

英英释义

例句

1.The formula for calculating the arc height involves the radius and the angle of the arc.

计算弧高的公式涉及弧的半径和角度。

2.In architecture, understanding the arc height is crucial for designing domes.

在建筑学中，理解弧高对于设计圆顶至关重要。

3.The engineer calculated the arc height to ensure the bridge would meet safety standards.

工程师计算了弧高以确保桥梁符合安全标准。

4.During the construction of the archway, workers measured the arc height several times.

在拱门的建造过程中，工人们多次测量了弧高。

5.The arc height of the rainbow can be visually estimated from the ground.

从地面上可以大致估计出彩虹的弧高。

作文

Understanding the concept of arc height is essential in various fields such as mathematics, engineering, and architecture. The term arc height refers to the vertical distance from the highest point of an arc to the baseline or chord connecting the endpoints of the arc. This measurement is crucial when analyzing curves, particularly in the design of bridges, roads, and even in the construction of buildings where rounded structures are involved.In mathematics, particularly in geometry, the arc height plays a significant role in calculating the properties of circles and arcs. For example, when dealing with a circle, the arc height can be derived from the radius and the angle subtended by the arc at the center. This relationship helps in determining the shape and dimensions of circular segments, which can be applied in real-world scenarios like designing roundabouts or circular parks.Engineers often encounter the concept of arc height when they are tasked with designing elements that require curvature. For instance, in civil engineering, when designing a bridge, the arc height becomes an important factor in ensuring the structural integrity and aesthetic appeal of the bridge. A higher arc height may allow for larger vehicles to pass underneath, while a lower height might create a more elegant appearance. Thus, understanding how to manipulate arc height is vital for engineers to achieve both functionality and beauty in their designs.In the field of architecture, the arc height can influence the overall look of a building. Architects often use arches in their designs, and the arc height can determine how light and space are perceived within a structure. A tall arch can create a sense of grandeur and openness, while a shorter arch may provide a cozier atmosphere. Therefore, architects need to carefully consider the arc height when planning their designs to ensure that they meet both aesthetic and practical needs.Moreover, the concept of arc height extends beyond physical structures and into the realm of art and design. Artists who incorporate curves and arches into their work must consider the arc height to create balance and harmony. Whether in sculpture or painting, the visual impact of an arc can be greatly affected by its height, influencing how viewers perceive the piece.Additionally, in the realm of sports, the arc height is a critical factor in activities such as basketball or soccer. The trajectory of a ball often follows an arc, and understanding the optimal arc height can enhance performance and scoring opportunities. Coaches and athletes analyze these arcs to improve techniques and strategies during games, demonstrating the importance of arc height in athletic performance.In conclusion, the term arc height encompasses a wide range of applications across different fields. From mathematics and engineering to architecture and art, understanding arc height enables professionals to create designs that are not only functional but also visually appealing. As we continue to explore the significance of arc height, it becomes clear that this concept is integral to many aspects of our lives, influencing everything from the structures we inhabit to the sports we enjoy.

理解弧高的概念在数学、工程和建筑等多个领域中至关重要。术语弧高指的是从弧的最高点到连接弧两端的基线或弦的垂直距离。这一测量在分析曲线时至关重要，尤其是在桥梁、道路的设计以及建筑物的建造中，当涉及到圆形结构时。在数学，特别是几何中，弧高在计算圆和弧的性质时起着重要作用。例如，在处理一个圆时，弧高可以通过半径和弧在中心所形成的角度来推导。这种关系有助于确定圆形段的形状和尺寸，这可以应用于现实世界的场景，如设计环形交叉口或圆形公园。工程师在设计需要曲率的元素时经常会遇到弧高的概念。例如，在土木工程中，设计桥梁时，弧高成为确保桥梁结构完整性和美观的重要因素。较高的弧高可能允许更大的车辆通过，而较低的高度可能会创造出更优雅的外观。因此，理解如何操控弧高对于工程师在实现功能与美观之间的平衡至关重要。在建筑领域，弧高可以影响建筑物的整体外观。建筑师在设计中经常使用拱门，而弧高可以决定光线和空间在结构内的感知。高拱门可以营造出宏伟和开放的感觉，而较短的拱门可能提供更舒适的氛围。因此，建筑师在规划设计时需要仔细考虑弧高，以确保满足美学和实用需求。此外，弧高的概念超越了物理结构，延伸到艺术和设计的领域。将曲线和拱门融入作品的艺术家必须考虑弧高以创造平衡与和谐。无论是在雕塑还是绘画中，弧的视觉影响都可能受到其高度的极大影响，从而影响观众对作品的感知。另外，在体育领域，弧高是篮球或足球等活动中的关键因素。球的轨迹通常遵循一个弧，而理解最佳的弧高可以提升表现和得分机会。教练和运动员分析这些弧线，以改善比赛中的技术和策略，展示了弧高在运动表现中的重要性。总之，术语弧高涵盖了多个领域的广泛应用。从数学和工程到建筑和艺术，理解弧高使专业人士能够创建既实用又具有视觉吸引力的设计。随着我们继续探索弧高的重要性，这一概念在我们生活的许多方面都显得不可或缺，影响着我们所居住的结构和我们所享受的运动。